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|
/*
* This program is is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or (at
* your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
*/
/**
* $Id$
* @file rlm_unbound.c
* @brief DNS services via libunbound.
*
* @copyright 2013 The FreeRADIUS server project
* @copyright 2013 Brian S. Julin <bjulin@clarku.edu>
*/
RCSID("$Id$")
#include <freeradius-devel/radiusd.h>
#include <freeradius-devel/modules.h>
#include <freeradius-devel/log.h>
#include <fcntl.h>
#ifdef HAVE_WDOCUMENTATION
DIAG_OFF(documentation)
#endif
#include <unbound.h>
#ifdef HAVE_WDOCUMENTATION
DIAG_ON(documentation)
#endif
typedef struct rlm_unbound_t {
struct ub_ctx *ub; /* This must come first. Do not move */
fr_event_list_t *el; /* This must come second. Do not move. */
char const *name;
char const *xlat_a_name;
char const *xlat_aaaa_name;
char const *xlat_ptr_name;
uint32_t timeout;
char const *filename;
char const *resolvconf;
char const *hosts;
int log_fd;
FILE *log_stream;
int log_pipe[2];
FILE *log_pipe_stream[2];
bool log_pipe_in_use;
} rlm_unbound_t;
/*
* A mapping of configuration file names to internal variables.
*/
static const CONF_PARSER module_config[] = {
{ "filename", FR_CONF_OFFSET(PW_TYPE_FILE_INPUT | PW_TYPE_REQUIRED, rlm_unbound_t, filename), "${modconfdir}/unbound/default.conf" },
{ "resolvconf", FR_CONF_OFFSET(PW_TYPE_FILE_INPUT, rlm_unbound_t, resolvconf), NULL },
{ "hosts", FR_CONF_OFFSET(PW_TYPE_FILE_INPUT, rlm_unbound_t, hosts), NULL },
{ "timeout", FR_CONF_OFFSET(PW_TYPE_INTEGER, rlm_unbound_t, timeout), "3000" },
CONF_PARSER_TERMINATOR
};
/*
* Callback sent to libunbound for xlat functions. Simply links the
* new ub_result via a pointer that has been allocated from the heap.
* This pointer has been pre-initialized to a magic value.
*/
static void link_ubres(void* my_arg, int err, struct ub_result* result)
{
struct ub_result **ubres = (struct ub_result **)my_arg;
/*
* Note that while result will be NULL on error, we are explicit
* here because that is actually a behavior that is suboptimal
* and only documented in the examples. It could change.
*/
if (err) {
ERROR("rlm_unbound: %s", ub_strerror(err));
*ubres = NULL;
} else {
*ubres = result;
}
}
/*
* Convert labels as found in a DNS result to a NULL terminated string.
*
* Result is written to memory pointed to by "out" but no result will
* be written unless it and its terminating NULL character fit in "left"
* bytes. Returns the number of bytes written excluding the terminating
* NULL, or -1 if nothing was written because it would not fit or due
* to a violation in the labels format.
*/
static int rrlabels_tostr(char *out, char *rr, size_t left)
{
int offset = 0;
/*
* TODO: verify that unbound results (will) always use this label
* format, and review the specs on this label format for nuances.
*/
if (!left) {
return -1;
}
if (left > 253) {
left = 253; /* DNS length limit */
}
/* As a whole this should be "NULL terminated" by the 0-length label */
if (strnlen(rr, left) > left - 1) {
return -1;
}
/* It will fit, but does it it look well formed? */
while (1) {
size_t count;
count = *((unsigned char *)(rr + offset));
if (!count) break;
offset++;
if (count > 63 || strlen(rr + offset) < count) {
return -1;
}
offset += count;
}
/* Data is valid and fits. Copy it. */
offset = 0;
while (1) {
int count;
count = *((unsigned char *)(rr));
if (!count) break;
if (offset) {
*(out + offset) = '.';
offset++;
}
rr++;
memcpy(out + offset, rr, count);
rr += count;
offset += count;
}
*(out + offset) = '\0';
return offset;
}
static int ub_common_wait(rlm_unbound_t *inst, REQUEST *request, char const *tag, struct ub_result **ub, int async_id)
{
useconds_t iv, waited;
iv = inst->timeout > 64 ? 64000 : inst->timeout * 1000;
ub_process(inst->ub);
for (waited = 0; (void*)*ub == (void *)inst; waited += iv, iv *= 2) {
if (waited + iv > (useconds_t)inst->timeout * 1000) {
usleep(inst->timeout * 1000 - waited);
ub_process(inst->ub);
break;
}
usleep(iv);
/* Check if already handled by event loop */
if ((void *)*ub != (void *)inst) {
break;
}
/* In case we are running single threaded */
ub_process(inst->ub);
}
if ((void *)*ub == (void *)inst) {
int res;
RDEBUG("rlm_unbound (%s): DNS took too long", tag);
res = ub_cancel(inst->ub, async_id);
if (res) {
REDEBUG("rlm_unbound (%s): ub_cancel: %s",
tag, ub_strerror(res));
}
return -1;
}
return 0;
}
static int ub_common_fail(REQUEST *request, char const *tag, struct ub_result *ub)
{
if (ub->bogus) {
RWDEBUG("rlm_unbound (%s): Bogus DNS response", tag);
return -1;
}
if (ub->nxdomain) {
RDEBUG("rlm_unbound (%s): NXDOMAIN", tag);
return -1;
}
if (!ub->havedata) {
RDEBUG("rlm_unbound (%s): empty result", tag);
return -1;
}
return 0;
}
static ssize_t xlat_a(void *instance, REQUEST *request, char const *fmt, char *out, size_t freespace)
{
rlm_unbound_t *inst = instance;
struct ub_result **ubres;
int async_id;
/* This has to be on the heap, because threads. */
ubres = talloc(inst, struct ub_result *);
/* Used and thus impossible value from heap to designate incomplete */
*ubres = (void *)instance;
ub_resolve_async(inst->ub, fmt, 1, 1, ubres, link_ubres, &async_id);
if (ub_common_wait(inst, request, inst->xlat_a_name, ubres, async_id)) {
goto error0;
}
if (*ubres) {
if (ub_common_fail(request, inst->xlat_a_name, *ubres)) {
goto error1;
}
if (!inet_ntop(AF_INET, (*ubres)->data[0], out, freespace)) {
goto error1;
};
ub_resolve_free(*ubres);
talloc_free(ubres);
return strlen(out);
}
RWDEBUG("rlm_unbound (%s): no result", inst->xlat_a_name);
error1:
ub_resolve_free(*ubres); /* Handles NULL gracefully */
error0:
talloc_free(ubres);
return -1;
}
static ssize_t xlat_aaaa(void *instance, REQUEST *request, char const *fmt, char *out, size_t freespace)
{
rlm_unbound_t *inst = instance;
struct ub_result **ubres;
int async_id;
/* This has to be on the heap, because threads. */
ubres = talloc(inst, struct ub_result *);
/* Used and thus impossible value from heap to designate incomplete */
*ubres = (void *)instance;
ub_resolve_async(inst->ub, fmt, 28, 1, ubres, link_ubres, &async_id);
if (ub_common_wait(inst, request, inst->xlat_aaaa_name, ubres, async_id)) {
goto error0;
}
if (*ubres) {
if (ub_common_fail(request, inst->xlat_aaaa_name, *ubres)) {
goto error1;
}
if (!inet_ntop(AF_INET6, (*ubres)->data[0], out, freespace)) {
goto error1;
};
ub_resolve_free(*ubres);
talloc_free(ubres);
return strlen(out);
}
RWDEBUG("rlm_unbound (%s): no result", inst->xlat_aaaa_name);
error1:
ub_resolve_free(*ubres); /* Handles NULL gracefully */
error0:
talloc_free(ubres);
return -1;
}
static ssize_t xlat_ptr(void *instance, REQUEST *request, char const *fmt, char *out, size_t freespace)
{
rlm_unbound_t *inst = instance;
struct ub_result **ubres;
int async_id;
/* This has to be on the heap, because threads. */
ubres = talloc(inst, struct ub_result *);
/* Used and thus impossible value from heap to designate incomplete */
*ubres = (void *)instance;
ub_resolve_async(inst->ub, fmt, 12, 1, ubres, link_ubres, &async_id);
if (ub_common_wait(inst, request, inst->xlat_ptr_name,
ubres, async_id)) {
goto error0;
}
if (*ubres) {
if (ub_common_fail(request, inst->xlat_ptr_name, *ubres)) {
goto error1;
}
if (rrlabels_tostr(out, (*ubres)->data[0], freespace) < 0) {
goto error1;
}
ub_resolve_free(*ubres);
talloc_free(ubres);
return strlen(out);
}
RWDEBUG("rlm_unbound (%s): no result", inst->xlat_ptr_name);
error1:
ub_resolve_free(*ubres); /* Handles NULL gracefully */
error0:
talloc_free(ubres);
return -1;
}
/*
* Even when run in asyncronous mode, callbacks sent to libunbound still
* must be run in an application-side thread (via ub_process.) This is
* probably to keep the API usage consistent across threaded and forked
* embedded client modes. This callback function lets an event loop call
* ub_process when the instance's file descriptor becomes ready.
*/
static void ub_fd_handler(UNUSED fr_event_list_t *el, UNUSED int sock, void *ctx)
{
rlm_unbound_t *inst = ctx;
int err;
err = ub_process(inst->ub);
if (err) {
ERROR("rlm_unbound (%s) async ub_process: %s",
inst->name, ub_strerror(err));
}
}
#ifndef HAVE_PTHREAD_H
/* If we have to use a pipe to redirect logging, this does the work. */
static void log_spew(UNUSED fr_event_list_t *el, UNUSED int sock, void *ctx)
{
rlm_unbound_t *inst = ctx;
char line[1024];
/*
* This works for pipes from processes, but not from threads
* right now. The latter is hinky and will require some fancy
* blocking/nonblocking trickery which is not figured out yet,
* since selecting on a pipe from a thread in the same process
* seems to behave differently. It will likely preclude the use
* of fgets and streams. Left for now since some unbound logging
* infrastructure is still global across multiple contexts. Maybe
* we can get unbound folks to provide a ub_ctx_debugout_async that
* takes a function hook instead to just bypass the piping when
* used in threaded mode.
*/
while (fgets(line, 1024, inst->log_pipe_stream[0])) {
DEBUG("rlm_unbound (%s): %s", inst->name, line);
}
}
#endif
static int mod_bootstrap(CONF_SECTION *conf, void *instance)
{
rlm_unbound_t *inst = instance;
inst->name = cf_section_name2(conf);
if (!inst->name) {
inst->name = cf_section_name1(conf);
}
if (inst->timeout > 10000) {
cf_log_err_cs(conf, "timeout must be 0 to 10000");
return -1;
}
MEM(inst->xlat_a_name = talloc_typed_asprintf(inst, "%s-a", inst->name));
MEM(inst->xlat_aaaa_name = talloc_typed_asprintf(inst, "%s-aaaa", inst->name));
MEM(inst->xlat_ptr_name = talloc_typed_asprintf(inst, "%s-ptr", inst->name));
if (xlat_register(inst->xlat_a_name, xlat_a, NULL, inst) ||
xlat_register(inst->xlat_aaaa_name, xlat_aaaa, NULL, inst) ||
xlat_register(inst->xlat_ptr_name, xlat_ptr, NULL, inst)) {
cf_log_err_cs(conf, "Failed registering xlats");
return -1;
}
return 0;
}
static int mod_instantiate(CONF_SECTION *conf, void *instance)
{
rlm_unbound_t *inst = instance;
int res;
char *optval;
log_dst_t log_dst;
int log_level;
int log_fd = -1;
inst->el = radius_event_list_corral(EVENT_CORRAL_AUX);
inst->log_pipe_stream[0] = NULL;
inst->log_pipe_stream[1] = NULL;
inst->log_fd = -1;
inst->log_pipe_in_use = false;
inst->ub = ub_ctx_create();
if (!inst->ub) {
cf_log_err_cs(conf, "ub_ctx_create failed");
return -1;
}
#ifdef HAVE_PTHREAD_H
/*
* Note unbound threads WILL happen with -s option, if it matters.
* We cannot tell from here whether that option is in effect.
*/
res = ub_ctx_async(inst->ub, 1);
#else
/*
* Uses forked subprocesses instead.
*/
res = ub_ctx_async(inst->ub, 0);
#endif
if (res) goto error;
/* Glean some default settings to match the main server. */
/* TODO: debug_level can be changed at runtime. */
/* TODO: log until fork when stdout or stderr and !rad_debug_lvl. */
log_level = 0;
if (rad_debug_lvl > 0) {
log_level = rad_debug_lvl;
} else if (main_config.debug_level > 0) {
log_level = main_config.debug_level;
}
switch (log_level) {
/* TODO: This will need some tweaking */
case 0:
case 1:
break;
case 2:
log_level = 1;
break;
case 3:
case 4:
log_level = 2; /* mid-to-heavy levels of output */
break;
case 5:
case 6:
case 7:
case 8:
log_level = 3; /* Pretty crazy amounts of output */
break;
default:
log_level = 4; /* Insane amounts of output including crypts */
break;
}
res = ub_ctx_debuglevel(inst->ub, log_level);
if (res) goto error;
switch (default_log.dst) {
case L_DST_STDOUT:
if (!rad_debug_lvl) {
log_dst = L_DST_NULL;
break;
}
log_dst = L_DST_STDOUT;
log_fd = dup(STDOUT_FILENO);
break;
case L_DST_STDERR:
if (!rad_debug_lvl) {
log_dst = L_DST_NULL;
break;
}
log_dst = L_DST_STDOUT;
log_fd = dup(STDERR_FILENO);
break;
case L_DST_FILES:
if (main_config.log_file) {
res = ub_ctx_set_option(inst->ub, "logfile:", main_config.log_file);
if (res) {
goto error;
}
log_dst = L_DST_FILES;
break;
}
/* FALL-THROUGH */
case L_DST_NULL:
log_dst = L_DST_NULL;
break;
default:
log_dst = L_DST_SYSLOG;
break;
}
/* Now load the config file, which can override gleaned settings. */
{
res = ub_ctx_config(inst->ub, inst->filename);
if (res) goto error;
}
/*
* Check if the config file tried to use syslog. Unbound
* does not share syslog gracefully.
*/
res = ub_ctx_get_option(inst->ub, "use-syslog", &optval);
if (res || !optval) goto error;
if (!strcmp(optval, "yes")) {
free(optval);
WARN("rlm_unbound (%s): Overriding syslog settings.", inst->name);
res = ub_ctx_set_option(inst->ub, "use-syslog:", "no");
if (res) goto error;
if (log_dst == L_DST_FILES) {
/* Reinstate the log file name JIC */
res = ub_ctx_set_option(inst->ub, "logfile:", main_config.log_file);
if (res) goto error;
}
} else {
if (optval) free(optval);
res = ub_ctx_get_option(inst->ub, "logfile", &optval);
if (res) goto error;
if (optval && strlen(optval)) {
log_dst = L_DST_FILES;
} else if (!rad_debug_lvl) {
log_dst = L_DST_NULL;
}
if (optval) free(optval);
}
switch (log_dst) {
case L_DST_STDOUT:
/*
* We have an fd to log to. And we've already attempted to
* dup it so libunbound doesn't close it on us.
*/
if (log_fd == -1) {
cf_log_err_cs(conf, "Could not dup fd");
goto error_nores;
}
inst->log_stream = fdopen(log_fd, "w");
if (!inst->log_stream) {
cf_log_err_cs(conf, "error setting up log stream");
goto error_nores;
}
res = ub_ctx_debugout(inst->ub, inst->log_stream);
if (res) goto error;
break;
case L_DST_FILES:
/* We gave libunbound a filename. It is on its own now. */
break;
case L_DST_NULL:
/* We tell libunbound not to log at all. */
res = ub_ctx_debugout(inst->ub, NULL);
if (res) goto error;
break;
case L_DST_SYSLOG:
#ifdef HAVE_PTHREAD_H
/*
* Currently this wreaks havoc when running threaded, so just
* turn logging off until that gets figured out.
*/
res = ub_ctx_debugout(inst->ub, NULL);
if (res) goto error;
break;
#else
/*
* We need to create a pipe, because libunbound does not
* share syslog nicely. Or the core added some new logsink.
*/
if (pipe(inst->log_pipe)) {
error_pipe:
cf_log_err_cs(conf, "Error setting up log pipes");
goto error_nores;
}
if ((fcntl(inst->log_pipe[0], F_SETFL, O_NONBLOCK) < 0) ||
(fcntl(inst->log_pipe[0], F_SETFD, FD_CLOEXEC) < 0)) {
goto error_pipe;
}
/* Opaque to us when this can be closed, so we do not. */
if (fcntl(inst->log_pipe[1], F_SETFL, O_NONBLOCK) < 0) {
goto error_pipe;
}
inst->log_pipe_stream[0] = fdopen(inst->log_pipe[0], "r");
inst->log_pipe_stream[1] = fdopen(inst->log_pipe[1], "w");
if (!inst->log_pipe_stream[0] || !inst->log_pipe_stream[1]) {
if (!inst->log_pipe_stream[1]) {
close(inst->log_pipe[1]);
}
if (!inst->log_pipe_stream[0]) {
close(inst->log_pipe[0]);
}
cf_log_err_cs(conf, "Error setting up log stream");
goto error_nores;
}
res = ub_ctx_debugout(inst->ub, inst->log_pipe_stream[1]);
if (res) goto error;
if (!fr_event_fd_insert(inst->el, 0, inst->log_pipe[0], log_spew, inst)) {
cf_log_err_cs(conf, "could not insert log fd");
goto error_nores;
}
inst->log_pipe_in_use = true;
#endif
default:
break;
}
/*
* Load resolv.conf if specified
*/
if (inst->resolvconf) ub_ctx_resolvconf(inst->ub, inst->resolvconf);
/*
* Load hosts file if specified
*/
if (inst->hosts) ub_ctx_hosts(inst->ub, inst->hosts);
/*
* Now we need to finalize the context.
*
* There's no clean API to just finalize the context made public
* in libunbound. But we can trick it by trying to delete data
* which as it happens fails quickly and quietly even though the
* data did not exist.
*/
ub_ctx_data_remove(inst->ub, "notar33lsite.foo123.nottld A 127.0.0.1");
inst->log_fd = ub_fd(inst->ub);
if (inst->log_fd >= 0) {
if (!fr_event_fd_insert(inst->el, 0, inst->log_fd, ub_fd_handler, inst)) {
cf_log_err_cs(conf, "could not insert async fd");
inst->log_fd = -1;
goto error_nores;
}
}
return 0;
error:
cf_log_err_cs(conf, "%s", ub_strerror(res));
error_nores:
if (log_fd > -1) close(log_fd);
return -1;
}
static int mod_detach(UNUSED void *instance)
{
rlm_unbound_t *inst = instance;
if (inst->log_fd >= 0) {
fr_event_fd_delete(inst->el, 0, inst->log_fd);
if (inst->ub) {
ub_process(inst->ub);
/* This can hang/leave zombies currently
* see upstream bug #519
* ...so expect valgrind to complain with -m
*/
#if 0
ub_ctx_delete(inst->ub);
#endif
}
}
if (inst->log_pipe_stream[1]) {
fclose(inst->log_pipe_stream[1]);
}
if (inst->log_pipe_stream[0]) {
if (inst->log_pipe_in_use) {
fr_event_fd_delete(inst->el, 0, inst->log_pipe[0]);
}
fclose(inst->log_pipe_stream[0]);
}
if (inst->log_stream) {
fclose(inst->log_stream);
}
return 0;
}
extern module_t rlm_unbound;
module_t rlm_unbound = {
.magic = RLM_MODULE_INIT,
.name = "unbound",
.type = RLM_TYPE_THREAD_SAFE,
.inst_size = sizeof(rlm_unbound_t),
.config = module_config,
.bootstrap = mod_bootstrap,
.instantiate = mod_instantiate,
.detach = mod_detach
};
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